Chemical: Drug
hydrochlorothiazide

PharmGKB contains no dosing guidelines for this . To report known genotype-based dosing guidelines, or if you are interested in developing guidelines, click here.



PharmGKB contains no Clinical Variants that meet the highest level of criteria.

To see more Clinical Variants with lower levels of criteria, click the button at the bottom of the page.

Disclaimer: The PharmGKB's clinical annotations reflect expert consensus based on clinical evidence and peer-reviewed literature available at the time they are written and are intended only to assist clinicians in decision-making and to identify questions for further research. New evidence may have emerged since the time an annotation was submitted to the PharmGKB. The annotations are limited in scope and are not applicable to interventions or diseases that are not specifically identified.

The annotations do not account for individual variations among patients, and cannot be considered inclusive of all proper methods of care or exclusive of other treatments. It remains the responsibility of the health-care provider to determine the best course of treatment for a patient. Adherence to any guideline is voluntary, with the ultimate determination regarding its application to be made solely by the clinician and the patient. PharmGKB assumes no responsibility for any injury or damage to persons or property arising out of or related to any use of the PharmGKB clinical annotations, or for any errors or omissions.

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The table below contains information about pharmacogenomic variants on PharmGKB. Please follow the link in the "Variant" column for more information about a particular variant. Each link in the "Variant" column leads to the corresponding PharmGKB Variant Page. The Variant Page contains summary data, including PharmGKB manually curated information about variant-drug pairs based on individual PubMed publications. The PMIDs for these PubMed publications can be found on the Variant Page.

The tags in the first column of the table indicate what type of information can be found on the corresponding Variant Page.

Links in the "Gene" column lead to PharmGKB Gene Pages.

List of all variant annotations for hydrochlorothiazide

Gene ? Variant?
(147)
Alternate Names ? Chemicals ? Alleles ?
(+ chr strand)
Function ? Amino Acid?
Translation
No VIP available No Clinical Annotations available VA
rs1008899 NC_000018.10:g.58195615G>A, NC_000018.9:g.55862847G>A, NG_029954.1:g.156238G>A, NM_001144964.1:c.-242+29754G>A, NM_001144965.1:c.-242+29754G>A, NM_001144967.2:c.122+29754G>A, NM_001144968.1:c.98+29754G>A, NM_001144969.1:c.98+29754G>A, NM_001144970.2:c.-360G>A, NM_001144971.1:c.-320+29754G>A, NM_001243960.1:c.122+29754G>A, NM_015277.5:c.122+29754G>A, XM_005266666.1:c.122+29754G>A, XM_005266668.1:c.-242+29754G>A, XM_005266669.1:c.-242+29754G>A, XM_005266670.1:c.-360G>A, XM_005266672.1:c.-360G>A, XM_006722426.2:c.122+29754G>A, XM_006722428.2:c.122+29754G>A, XM_006722430.2:c.-360G>A, XM_011525887.1:c.98+29754G>A, XR_935527.1:n.96C>T, XR_935528.1:n.96C>T, XR_935529.1:n.62C>T, XR_935530.1:n.82C>T, rs59250638
G > A
SNP
No VIP available No Clinical Annotations available VA
rs1042713 NC_000005.10:g.148826877G=, NC_000005.10:g.148826877G>A, NC_000005.9:g.148206440G=, NC_000005.9:g.148206440G>A, NG_016421.1:g.5285A=, NG_016421.1:g.5285A>G, NM_000024.5:c.46A=, NM_000024.5:c.46A>G, NP_000015.1:p.Arg16=, NP_000015.1:p.Arg16Gly, XM_005268382.1:c.46G=, XM_005268382.1:c.46G>A, XM_005268383.1:c.46G=, XM_005268383.1:c.46G>A, XP_005268439.1:p.Gly16=, XP_005268439.1:p.Gly16Arg, XP_005268440.1:p.Gly16=, XP_005268440.1:p.Gly16Arg, rs17287432, rs17334179, rs17334242, rs17721693, rs17839749, rs17846639, rs17859732, rs3182174, rs3729940, rs52812686, rs56964295
G > G
SNP
R16G
No VIP available No Clinical Annotations available VA
rs10497338 NC_000002.11:g.169084504T>C, NC_000002.12:g.168227994T>C, NM_013233.2:c.208+19234A>G, XM_005246465.1:c.208+19234A>G, XM_005246465.2:c.208+19234A>G, XM_011510966.1:c.208+19234A>G, XM_011510967.1:c.208+19234A>G, XM_011510968.1:c.208+19234A>G, rs17190786, rs60653046
T > C
SNP
No VIP available No Clinical Annotations available VA
rs10737062 NC_000010.10:g.12732743G>A, NC_000010.11:g.12690744G>A, NM_020397.3:c.299+23934G>A, NM_153498.3:c.299+23934G>A, XM_006717481.2:c.242+23934G>A, XM_006717482.2:c.299+23934G>A, XM_006717483.2:c.299+23934G>A, XM_011519591.1:c.260+23934G>A, XM_011519592.1:c.89+23934G>A, XM_011519593.1:c.77+23934G>A, XM_011519595.1:c.8+23934G>A, XM_011519596.1:c.8+23934G>A, rs12776533, rs59326810
G > A
SNP
No VIP available No Clinical Annotations available VA
rs10752271 NC_000010.10:g.12704191G>A, NC_000010.11:g.12662192G>A, NM_020397.3:c.225-4544G>A, NM_153498.3:c.225-4544G>A, XM_006717481.2:c.168-4544G>A, XM_006717482.2:c.225-4544G>A, XM_006717483.2:c.225-4544G>A, XM_011519591.1:c.186-4544G>A, XM_011519595.1:c.-67-4544G>A, rs56593416, rs57320209, rs59119864
G > A
SNP
No VIP available CA VA
rs10792367 NC_000011.10:g.62991327C>G, NC_000011.9:g.62758799C>G, rs17712912, rs56617038, rs61596285
C > G
SNP
No VIP available CA VA
rs11189015 NC_000010.10:g.98911936G>C, NC_000010.11:g.97152179G>C, NM_003061.2:c.413+5639C>G
G > C
SNP
No VIP available No Clinical Annotations available VA
rs11240688 NC_000001.10:g.204134522G>A, NC_000001.11:g.204165394G>A, NG_012122.1:g.5944C>T, NM_000537.3:c.98+802C>T, rs52829703
G > A
SNP
No VIP available CA VA
rs113095083 NC_000002.11:g.239105715T>C, NC_000002.12:g.238197074T>C, NM_030768.2:c.56-2204A>G, XM_005246105.1:c.56-2204A>G, XM_005246106.1:c.-318-2204A>G, XM_006712784.1:c.-172-2204A>G, XR_923033.1:n.205-2204A>G
T > C
SNP
No VIP available CA VA
rs11313667 NC_000003.11:g.194082162delC, NC_000003.12:g.194361433delC, NM_001135057.2:c.16-387del, NM_001135057.2:c.16-387delG, NM_130830.4:c.-3-387del, NM_130830.4:c.-3-387delG, rs151082125, rs35134266, rs375356868, rs376304527, rs61050302, rs79846527
C > -
indel
No VIP available No Clinical Annotations available VA
rs1159744 NC_000012.11:g.934845C>G, NC_000012.12:g.825679C>G, NG_007984.2:g.77621C>G, NM_001184985.1:c.933-1363C>G, NM_014823.2:c.933-1363C>G, NM_018979.3:c.933-1363C>G, NM_213655.4:c.933-1363C>G, XM_005253733.1:c.933-1363C>G, XM_005253734.1:c.933-1363C>G, XM_005253735.1:c.933-1363C>G, XM_005253736.1:c.933-1363C>G, XM_005253737.1:c.933-1363C>G, XM_005253738.1:c.933-1363C>G, XM_005253739.1:c.933-1363C>G, XM_005253740.1:c.933-1363C>G, XM_005253741.1:c.933-1363C>G, XM_005253742.1:c.933-1363C>G, XM_006719003.1:c.933-1363C>G, XM_011520997.1:c.933-1363C>G, XM_011520998.1:c.933-1363C>G, XM_011520999.1:c.933-1363C>G, XM_011521000.1:c.933-1363C>G, XM_011521001.1:c.933-1363C>G, XM_011521002.1:c.933-1363C>G, XM_011521003.1:c.933-1363C>G, XM_011521004.1:c.933-1363C>G, XM_011521006.1:c.933-1363C>G, XM_011521007.1:c.933-1363C>G, XM_011521008.1:c.933-1363C>G, XM_011521009.1:c.933-1363C>G, rs12823453, rs60332740
C > G
SNP
No VIP available CA VA
rs11600347 NC_000011.10:g.128863419C>A, NC_000011.9:g.128733314C>A, NG_009379.1:g.8955G>T, NM_153764.2:c.-22+3754G>T, NM_153765.2:c.30+3104G>T, NM_153766.2:c.-192+3754G>T, NM_153767.3:c.-192+3104G>T, rs56679964
C > A
SNP
No VIP available No Clinical Annotations available VA
rs11763492 NC_000007.13:g.146945089G>A, NC_000007.14:g.147247997G>A, NG_007092.2:g.1136637G>A, NM_014141.5:c.1349-52144G>A, rs59234011
G > A
SNP
No VIP available CA VA
rs11993031 NC_000008.10:g.2809581T>A, NC_000008.11:g.2952059T>A, NM_033225.5:c.10040-784A>T, XM_011534752.1:c.9995-784A>T, XM_011534753.1:c.7133-784A>T, XM_011534754.1:c.6062-784A>T, rs61511569
T > A
SNP
No VIP available No Clinical Annotations available VA
rs12279250 NC_000011.10:g.21543533T>C, NC_000011.9:g.21565079T>C, NM_001288713.1:c.1870+9019T>C, NM_001288714.1:c.1615+9019T>C, NM_006157.4:c.1786+9019T>C, NM_201551.2:c.1646-16656T>C, XM_005252939.1:c.1870+9019T>C, XM_005252940.1:c.1615+9019T>C, XM_011520119.1:c.829+9019T>C, rs56614357, rs58741264
T > C
SNP
No VIP available CA VA
rs12346562 NC_000009.11:g.11018077C>A, NC_000009.12:g.11018077C>A
C > A
SNP
No VIP available CA VA
rs12505746 NC_000004.11:g.106114071A>G, NC_000004.12:g.105192914A>G, NG_028191.1:g.52040A>G, NM_001127208.2:c.-47+2409A>G, NM_017628.4:c.-47+2409A>G, NR_126420.1:n.319-15242T>C, XM_005263082.1:c.-46-40983A>G, XM_006714242.2:c.-47+2409A>G, XM_011532043.1:c.-47+2409A>G, XR_244633.1:n.285+2409A>G, XR_244633.2:n.250+2409A>G, XR_244634.1:n.285+2409A>G, XR_244634.2:n.250+2409A>G, XR_427546.2:n.250+2409A>G, XR_938746.1:n.250+2409A>G, XR_938747.1:n.250+2409A>G
A > G
SNP
No VIP available CA VA
rs12795437 NC_000011.10:g.128860981G>C, NC_000011.9:g.128730876G>C, NG_009379.1:g.11393C>G, NM_153764.2:c.-22+6192C>G, NM_153765.2:c.30+5542C>G, NM_153766.2:c.-192+6192C>G, NM_153767.3:c.-192+5542C>G
G > C
SNP
No VIP available No Clinical Annotations available VA
rs13223171 NC_000007.13:g.146949365C>T, NC_000007.14:g.147252273C>T, NG_007092.2:g.1140913C>T, NM_014141.5:c.1349-47868C>T
C > T
SNP
No VIP available No Clinical Annotations available VA
rs1458038 NC_000004.11:g.81164723C>T, NC_000004.12:g.80243569C>T, XR_938930.1:n.186+11283C>T, rs61639674
C > T
SNP
No VIP available No Clinical Annotations available VA
rs16849146 NC_000004.11:g.73903676T>C, NC_000004.12:g.73037959T>C, rs59082158
T > C
SNP
No VIP available CA VA
rs16960228 NC_000017.10:g.64788827G>A, NC_000017.11:g.66792709G>A, NG_012206.1:g.494902G>A, NM_002737.2:c.1854+3730G>A, XM_005257502.1:c.1854+3730G>A, XM_011524989.1:c.1596+3730G>A, XM_011524990.1:c.1854+3730G>A, rs56450221, rs58963948
G > A
SNP
No VIP available No Clinical Annotations available VA
rs17010902 NC_000004.11:g.127215318A>G, NC_000004.12:g.126294163A>G
A > G
SNP
No VIP available No Clinical Annotations available VA
rs17137967 NC_000011.10:g.128847623T>C, NC_000011.9:g.128717518T>C, NG_009379.1:g.24751A>G, NM_153764.2:c.-21-7359A>G, NM_153765.2:c.31-7359A>G, NM_153766.2:c.-22+3098A>G, NM_153767.3:c.-22+3098A>G
T > C
SNP
rs1799752 NC_000017.10:g.61565890_61565891insATACAGTCACTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCC, NC_000017.10:g.61565890_61565891insG, NC_000017.11:g.63488529_63488530insATACAGTCACTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCC, NC_000017.11:g.63488529_63488530insG, NG_011648.1:g.16457_16458insATACAGTCACTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCC, NG_011648.1:g.16457_16458insG, NM_000789.3:c.2306-119_2306-118insATACAGTCACTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCC, NM_000789.3:c.2306-119_2306-118insG, NM_001178057.1:c.584-119_584-118insATACAGTCACTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCC, NM_001178057.1:c.584-119_584-118insG, NM_152830.2:c.584-119_584-118insATACAGTCACTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCC, NM_152830.2:c.584-119_584-118insG, XM_005257110.1:c.1757-119_1757-118insATACAGTCACTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCC, XM_005257110.1:c.1757-119_1757-118insG, XM_006721737.2:c.644-119_644-118insATACAGTCACTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCC, XM_006721737.2:c.644-119_644-118insG
- > ATACAGTCACTTTTTTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCGCCC
- > G
indel
No VIP available No Clinical Annotations available VA
rs1799983 NC_000007.13:g.150696111T>G, NC_000007.14:g.150999023T>G, NG_011992.1:g.12965T>G, NM_000603.4:c.894T>G, NM_001160109.1:c.894T>G, NM_001160110.1:c.894T>G, NM_001160111.1:c.894T>G, NP_000594.2:p.Asp298Glu, NP_001153581.1:p.Asp298Glu, NP_001153582.1:p.Asp298Glu, NP_001153583.1:p.Asp298Glu, XM_006716002.2:c.894T>G, XP_006716065.1:p.Asp298Glu, rs11266811, rs13238975, rs13305983, rs13308813, rs17173672, rs3730304, rs57135373
T > G
SNP
D298E
No VIP available No Clinical Annotations available VA
rs1799998 NC_000008.10:g.143999600A=, NC_000008.10:g.143999600A>G, NC_000008.11:g.142918184A=, NC_000008.11:g.142918184A>G, NG_008374.1:g.4660T=, NG_008374.1:g.4660T>C, NM_000498.3:c.-344T=, NM_000498.3:c.-344T>C, XM_011516877.1:c.-344T=, XM_011516877.1:c.-344T>C, XM_011516878.1:c.-344T=, XM_011516878.1:c.-344T>C, XM_011516879.1:c.-344T=, XM_011516879.1:c.-344T>C, XR_928729.1:n.-1946A=, XR_928729.1:n.-1946A>G, rs17777877, rs60977059
A > G
SNP
rs1801253 NC_000010.10:g.115805056G>C, NC_000010.11:g.114045297G>C, NG_012187.1:g.6251G>C, NM_000684.2:c.1165G>C, NP_000675.1:p.Gly389Arg, rs12718339, rs17091259, rs28365052, rs59130083
G > C
SNP
G389R
No VIP available CA VA
rs201279313 NC_000004.11:g.128657041_128657043delTTA, NC_000004.12:g.127735886_127735888delTTA, NM_001318467.1:c.232+5109_232+5111del, NM_001318467.1:c.232+5109_232+5111delTTA, NM_031291.3:c.232+5109_232+5111del, NM_031291.3:c.232+5109_232+5111delTTA, XM_011532297.1:c.232+5109_232+5111del, XM_011532298.1:c.232+5109_232+5111del
TTA > -
indel
No VIP available No Clinical Annotations available VA
rs2106809 NC_000023.10:g.15618061A>G, NC_000023.11:g.15599938A>G, NG_012575.1:g.7132T>C, NM_021804.2:c.186+788T>C, XM_005274571.1:c.186+788T>C, XM_011545549.1:c.186+788T>C, XM_011545550.1:c.186+788T>C, XM_011545551.1:c.186+788T>C, XM_011545552.1:c.186+788T>C, rs59690101
A > G
SNP
No VIP available No Clinical Annotations available VA
rs2107614 NC_000012.11:g.903079T>C, NC_000012.12:g.793913T>C, NG_007984.2:g.45855T>C, NM_001184985.1:c.760-19729T>C, NM_014823.2:c.760-19729T>C, NM_018979.3:c.760-19729T>C, NM_213655.4:c.760-19729T>C, XM_005253733.1:c.760-19729T>C, XM_005253734.1:c.760-19729T>C, XM_005253735.1:c.760-19729T>C, XM_005253736.1:c.760-19729T>C, XM_005253737.1:c.760-19729T>C, XM_005253738.1:c.760-19729T>C, XM_005253739.1:c.760-19729T>C, XM_005253740.1:c.760-19729T>C, XM_005253741.1:c.760-19729T>C, XM_005253742.1:c.760-19729T>C, XM_006719003.1:c.760-19729T>C, XM_011520997.1:c.760-19729T>C, XM_011520998.1:c.760-19729T>C, XM_011520999.1:c.760-19729T>C, XM_011521000.1:c.760-19729T>C, XM_011521001.1:c.760-19729T>C, XM_011521002.1:c.760-19729T>C, XM_011521003.1:c.760-19729T>C, XM_011521004.1:c.760-19729T>C, XM_011521006.1:c.760-19729T>C, XM_011521007.1:c.760-19729T>C, XM_011521008.1:c.760-19729T>C, XM_011521009.1:c.760-19729T>C, rs60182845
T > C
SNP
No VIP available No Clinical Annotations available VA
rs221903 NC_000014.8:g.71600208T>C, NC_000014.9:g.71133491T>C, rs56484460, rs60865465
T > C
SNP
No VIP available No Clinical Annotations available VA
rs2230345 NC_000010.10:g.121086097A>T, NC_000010.11:g.119326585A>T, NM_005308.2:c.122A>T, NP_005299.1:p.Gln41Leu, XM_005269707.1:c.122A>T, XM_005269708.1:c.53-54230A>T, XP_005269764.1:p.Gln41Leu, rs17098707, rs45630571, rs52829401
A > T
SNP
Q41L
No VIP available CA VA
rs2269879 NC_000019.10:g.2194897T>C, NC_000019.9:g.2194896T>C, NG_029793.1:g.35749T>C, NM_032482.2:c.651+320T>C, XM_005259659.1:c.651+320T>C, XM_005259659.2:c.651+320T>C, XM_005259660.1:c.651+320T>C, XM_005259660.2:c.651+320T>C, XM_006722923.2:c.31+320T>C, XM_011528359.1:c.651+320T>C, XM_011528360.1:c.441+320T>C, rs52816020, rs58400820
T > C
SNP
No VIP available No Clinical Annotations available VA
rs2273359 NC_000020.10:g.57562102C>G, NC_000020.11:g.58987047C>G, NM_198976.2:c.340+184C>G, XM_011528849.1:c.-328+184C>G, XR_244141.1:n.344+184C>G, XR_244142.1:n.344+184C>G, XR_244142.2:n.344+184C>G, rs58920781
C > G
SNP
No VIP available No Clinical Annotations available VA
rs2277869 NC_000012.11:g.1016910T>C, NC_000012.12:g.907744T>C, NG_007984.2:g.159686T>C, NM_001184985.1:c.7424-103T>C, NM_014823.2:c.5900-103T>C, NM_018979.3:c.6644-103T>C, NM_213655.4:c.7400-103T>C, XM_005253733.1:c.7997-103T>C, XM_005253734.1:c.6758-103T>C, XM_005253735.1:c.6755-103T>C, XM_005253736.1:c.6674-103T>C, XM_005253737.1:c.6671-103T>C, XM_005253739.1:c.6017-103T>C, XM_005253740.1:c.5936-103T>C, XM_005253741.1:c.5933-103T>C, XM_005253742.1:c.5822-103T>C, XM_005253743.1:c.5537-103T>C, XM_006719003.1:c.6641-103T>C, XM_011520997.1:c.7883-103T>C, XM_011520998.1:c.7880-103T>C, XM_011520999.1:c.7880-103T>C, XM_011521000.1:c.7688-103T>C, XM_011521001.1:c.7604-103T>C, XM_011521002.1:c.7421-103T>C, XM_011521003.1:c.7145-103T>C, XM_011521004.1:c.7142-103T>C, XM_011521005.1:c.6662-103T>C, XM_011521006.1:c.6560-103T>C, XM_011521007.1:c.6557-103T>C, XM_011521008.1:c.5822-103T>C, XM_011521009.1:c.5819-103T>C, rs57759990
T > C
SNP
No VIP available No Clinical Annotations available VA
rs2286007 NC_000012.11:g.971291C>T, NC_000012.12:g.862125C>T, NG_007984.2:g.114067C>T, NM_001184985.1:c.1994C>T, NM_014823.2:c.1994C>T, NM_018979.3:c.1994C>T, NM_213655.4:c.1994C>T, NP_001171914.1:p.Thr665Ile, NP_055638.2:p.Thr665Ile, NP_061852.3:p.Thr665Ile, NP_998820.3:p.Thr665Ile, XM_005253733.1:c.1994C>T, XM_005253734.1:c.1994C>T, XM_005253735.1:c.1994C>T, XM_005253736.1:c.1994C>T, XM_005253737.1:c.1994C>T, XM_005253738.1:c.1994C>T, XM_005253739.1:c.1994C>T, XM_005253740.1:c.1994C>T, XM_005253741.1:c.1994C>T, XM_005253742.1:c.1994C>T, XM_005253743.1:c.773C>T, XM_006719003.1:c.1994C>T, XM_011520997.1:c.1994C>T, XM_011520998.1:c.1994C>T, XM_011520999.1:c.1994C>T, XM_011521000.1:c.1994C>T, XM_011521001.1:c.1994C>T, XM_011521002.1:c.1994C>T, XM_011521003.1:c.1994C>T, XM_011521004.1:c.1994C>T, XM_011521005.1:c.773C>T, XM_011521006.1:c.1994C>T, XM_011521007.1:c.1994C>T, XM_011521008.1:c.1994C>T, XM_011521009.1:c.1994C>T, XP_005253790.1:p.Thr665Ile, XP_005253791.1:p.Thr665Ile, XP_005253792.1:p.Thr665Ile, XP_005253793.1:p.Thr665Ile, XP_005253794.1:p.Thr665Ile, XP_005253795.1:p.Thr665Ile, XP_005253796.1:p.Thr665Ile, XP_005253797.1:p.Thr665Ile, XP_005253798.1:p.Thr665Ile, XP_005253799.1:p.Thr665Ile, XP_005253800.1:p.Thr258Ile, XP_006719066.1:p.Thr665Ile, XP_011519299.1:p.Thr665Ile, XP_011519300.1:p.Thr665Ile, XP_011519301.1:p.Thr665Ile, XP_011519302.1:p.Thr665Ile, XP_011519303.1:p.Thr665Ile, XP_011519304.1:p.Thr665Ile, XP_011519305.1:p.Thr665Ile, XP_011519306.1:p.Thr665Ile, XP_011519307.1:p.Thr258Ile, XP_011519308.1:p.Thr665Ile, XP_011519309.1:p.Thr665Ile, XP_011519310.1:p.Thr665Ile, XP_011519311.1:p.Thr665Ile, rs386563627, rs52827764, rs60549230
C > T
SNP
T665I
No VIP available CA VA
rs238 NC_000009.11:g.98786276A>G, NC_000009.12:g.96023994A>G, XM_011518645.1:c.3708-14882A>G, XR_929787.1:n.4096-14882A>G, XR_930143.1:n.2136T>C, rs17462368, rs694833
A > G
SNP
No VIP available No Clinical Annotations available VA
rs2400707 NC_000005.10:g.148825489A>G, NC_000005.9:g.148205052A>G, NG_016421.1:g.3897A>G, NM_000024.5:c.-1343A>G, XM_005268382.1:c.-1343A>G, XM_005268383.1:c.-1343A>G, rs36218059, rs56628249, rs58642759, rs61017898
A > G
SNP
No VIP available No Clinical Annotations available VA
rs2432742 NC_000008.10:g.113825058A>G, NC_000008.11:g.112812829A>G, NM_052900.2:c.1548-12555T>C, NM_198123.1:c.1860-12555T>C, NM_198124.1:c.1740-12555T>C, XM_005250771.1:c.1740-12555T>C, XM_011516808.1:c.1662-12555T>C, XM_011516809.1:c.1422-12555T>C, XM_011516810.1:c.1350-12555T>C, XM_011516812.1:c.1740-12555T>C, XM_011516814.1:c.1740-12555T>C, XM_011516816.1:c.1548-12555T>C, rs17655328, rs56512161, rs59758618
A > G
SNP
No VIP available CA VA
rs2776546 NC_000014.8:g.87628156C>A, NC_000014.9:g.87161812C>A, rs60220495
C > A
SNP
No VIP available No Clinical Annotations available VA
rs2846680 NC_000011.10:g.128859950A>C, NC_000011.9:g.128729845A>C, NG_009379.1:g.12424T>G, NM_153764.2:c.-22+7223T>G, NM_153765.2:c.30+6573T>G, NM_153766.2:c.-192+7223T>G, NM_153767.3:c.-192+6573T>G, rs58251847
A > C
SNP
No VIP available CA VA
rs292449 NC_000018.10:g.58227849G>C, NC_000018.9:g.55895081G>C, NG_029954.1:g.188472G>C, NM_001144964.1:c.-241-17578G>C, NM_001144965.1:c.-241-17578G>C, NM_001144966.2:c.-242+6092G>C, NM_001144967.2:c.123-17578G>C, NM_001144968.1:c.99-17578G>C, NM_001144969.1:c.99-17578G>C, NM_001144970.2:c.-241-17578G>C, NM_001144971.1:c.-300G>C, NM_001243960.1:c.123-17578G>C, NM_015277.5:c.123-17578G>C, XM_005266666.1:c.123-17578G>C, XM_005266667.1:c.-242+6092G>C, XM_005266668.1:c.-241-17578G>C, XM_005266669.1:c.-241-17578G>C, XM_005266670.1:c.-241-17578G>C, XM_005266671.1:c.-300G>C, XM_005266672.1:c.-241-17578G>C, XM_006722426.2:c.142G>C, XM_006722428.2:c.123-17578G>C, XM_006722430.2:c.-241-17578G>C, XM_011525887.1:c.118G>C, XP_006722489.1:p.Glu48Gln, XP_011524189.1:p.Glu40Gln, rs111188092, rs556977, rs57943174
G > C
SNP
No VIP available No Clinical Annotations available VA
rs3184504 NC_000012.11:g.111884608T>C, NC_000012.12:g.111446804T>C, NG_021216.1:g.45857T>C, NM_001291424.1:c.178T>C, NM_005475.2:c.784T>C, NP_001278353.1:p.Trp60Arg, NP_005466.1:p.Trp262Arg, XM_005253818.1:c.904T>C, XM_005253818.3:c.904T>C, XM_005253819.1:c.784T>C, XM_005253819.3:c.784T>C, XM_005253820.1:c.178T>C, XM_006719180.2:c.-18T>C, XM_011537719.1:c.904T>C, XM_011537720.1:c.904T>C, XM_011537721.1:c.178T>C, XM_011537722.1:c.1014T>C, XP_005253875.1:p.Trp302Arg, XP_005253876.1:p.Trp262Arg, XP_005253877.1:p.Trp60Arg, XP_011536021.1:p.Trp302Arg, XP_011536022.1:p.Trp302Arg, XP_011536023.1:p.Trp60Arg, XP_011536024.1:p.Gly338=, rs17519753, rs52803061, rs60790578
T > C
SNP
W60R
No VIP available CA VA
rs3758785 NC_000011.10:g.94398973A>G, NC_000011.9:g.94132139A>G, NM_016540.3:c.387+1888T>C, XM_011542559.1:c.387+1888T>C, rs60654011
A > G
SNP
No VIP available No Clinical Annotations available VA
rs4074471 NC_000016.10:g.25948029T>G, NC_000016.9:g.25959350T>G, NM_006040.2:c.735-187583T>G, rs60332080
T > G
SNP
No VIP available CA VA
rs4132670 NC_000010.10:g.114767771G>A, NC_000010.11:g.113008012G>A, NG_012631.1:g.62763G>A, NM_001146274.1:c.451-32013G>A, NM_001146283.1:c.382-32013G>A, NM_001146284.1:c.382-32013G>A, NM_001146285.1:c.382-32013G>A, NM_001146286.1:c.382-32013G>A, NM_001198525.1:c.382-32013G>A, NM_001198526.1:c.382-32013G>A, NM_001198527.1:c.382-32013G>A, NM_001198528.1:c.382-32013G>A, NM_001198529.1:c.382-32013G>A, NM_001198530.1:c.381+56405G>A, NM_001198531.1:c.451-32013G>A, NM_030756.4:c.382-32013G>A, XM_005270071.1:c.451-32013G>A, XM_005270072.1:c.451-32013G>A, XM_005270073.1:c.451-32013G>A, XM_005270074.1:c.451-32013G>A, XM_005270075.1:c.451-32013G>A, XM_005270076.1:c.451-32013G>A, XM_005270077.1:c.451-32013G>A, XM_005270078.1:c.451-32013G>A, XM_005270079.1:c.451-32013G>A, XM_005270080.1:c.382-32013G>A, XM_005270081.1:c.382-32013G>A, XM_005270082.1:c.451-32013G>A, XM_005270083.1:c.451-32013G>A, XM_005270084.1:c.451-32013G>A, XM_005270085.1:c.451-32013G>A, XM_005270086.1:c.382-32013G>A, XM_005270087.1:c.382-32013G>A, XM_005270088.1:c.382-32013G>A, XM_005270089.1:c.382-32013G>A, XM_005270090.1:c.381+56405G>A, XM_005270091.1:c.451-32013G>A, XM_005270091.2:c.451-32013G>A, XM_005270092.1:c.451-32013G>A, XM_005270093.1:c.451-32013G>A, XM_005270094.1:c.451-32013G>A, XM_005270095.1:c.451-32013G>A, XM_005270096.1:c.451-32013G>A, XM_005270100.1:c.451-32013G>A, XM_005270101.1:c.382-32013G>A, XM_005270102.1:c.451-32013G>A, XM_005270103.1:c.382-32013G>A, XM_005270104.1:c.382-32013G>A, XM_006717956.2:c.-9-32013G>A, XM_011540109.1:c.451-32013G>A, XM_011540110.1:c.382-32013G>A, XM_011540111.1:c.382-32013G>A, XM_011540112.1:c.451-32013G>A, XM_011540113.1:c.451-32013G>A, XM_011540114.1:c.451-32013G>A, XM_011540115.1:c.451-32013G>A, XM_011540116.1:c.451-32013G>A, XM_011540117.1:c.451-32013G>A, XM_011540118.1:c.451-32013G>A, XM_011540119.1:c.451-32013G>A, rs17130174, rs386591207, rs56521639, rs57679207, rs59221588
G > A
SNP
No VIP available CA VA
rs4149601 NC_000018.10:g.58149559G>A, NC_000018.9:g.55816791G>A, NG_029954.1:g.110182G>A, NM_001144964.1:c.-315-16229G>A, NM_001144965.1:c.-326G>A, NM_001144967.2:c.49-16229G>A, NM_001144968.1:c.24G>A, NM_001144969.1:c.24G>A, NM_001144971.1:c.-404G>A, NM_001243960.1:c.49-16229G>A, NM_015277.5:c.49-16229G>A, NP_001138440.1:p.Gln8=, NP_001138441.1:p.Gln8=, XM_005266666.1:c.49-16229G>A, XM_005266668.1:c.-326G>A, XM_006722426.2:c.49-16229G>A, XM_006722428.2:c.49-16229G>A, XM_011525887.1:c.24G>A, XP_011524189.1:p.Gln8=, rs57531784
G > A
SNP
Q8Q
No VIP available No Clinical Annotations available VA
rs4376293 NC_000005.10:g.163162852T>C, NC_000005.9:g.162589858T>C, rs17527301, rs58137573
T > C
SNP
No VIP available CA VA
rs4431329 NC_000005.10:g.108253257A>T, NC_000005.9:g.107588958A>T, NM_001163315.2:c.1507-29029T>A, XM_005272048.1:c.1507-29029T>A, XM_005272048.3:c.1507-29029T>A, XM_005272049.1:c.1375-29029T>A, XM_011543574.1:c.1507-29029T>A, XM_011543575.1:c.1507-29029T>A, XM_011543576.1:c.1507-29029T>A, XM_011543577.1:c.1507-29029T>A, XM_011543578.1:c.1507-29029T>A
A > T
SNP
No VIP available CA VA
rs4506565 NC_000010.10:g.114756041A>T, NC_000010.11:g.112996282A>T, NG_012631.1:g.51033A>T, NM_001146274.1:c.450+31658A>T, NM_001146283.1:c.382-43743A>T, NM_001146284.1:c.382-43743A>T, NM_001146285.1:c.382-43743A>T, NM_001146286.1:c.382-43743A>T, NM_001198525.1:c.382-43743A>T, NM_001198526.1:c.382-43743A>T, NM_001198527.1:c.382-43743A>T, NM_001198528.1:c.382-43743A>T, NM_001198529.1:c.382-43743A>T, NM_001198530.1:c.381+44675A>T, NM_001198531.1:c.450+31658A>T, NM_030756.4:c.382-43743A>T, XM_005270071.1:c.450+31658A>T, XM_005270072.1:c.450+31658A>T, XM_005270073.1:c.450+31658A>T, XM_005270074.1:c.450+31658A>T, XM_005270075.1:c.450+31658A>T, XM_005270076.1:c.450+31658A>T, XM_005270077.1:c.450+31658A>T, XM_005270078.1:c.450+31658A>T, XM_005270079.1:c.450+31658A>T, XM_005270080.1:c.382-43743A>T, XM_005270081.1:c.382-43743A>T, XM_005270082.1:c.450+31658A>T, XM_005270083.1:c.450+31658A>T, XM_005270084.1:c.450+31658A>T, XM_005270085.1:c.450+31658A>T, XM_005270086.1:c.382-43743A>T, XM_005270087.1:c.382-43743A>T, XM_005270088.1:c.382-43743A>T, XM_005270089.1:c.382-43743A>T, XM_005270090.1:c.381+44675A>T, XM_005270091.1:c.450+31658A>T, XM_005270091.2:c.450+31658A>T, XM_005270092.1:c.450+31658A>T, XM_005270093.1:c.450+31658A>T, XM_005270094.1:c.450+31658A>T, XM_005270095.1:c.450+31658A>T, XM_005270096.1:c.450+31658A>T, XM_005270100.1:c.450+31658A>T, XM_005270101.1:c.382-43743A>T, XM_005270102.1:c.450+31658A>T, XM_005270103.1:c.382-43743A>T, XM_005270104.1:c.382-43743A>T, XM_006717956.2:c.-10+31658A>T, XM_011540109.1:c.450+31658A>T, XM_011540110.1:c.382-43743A>T, XM_011540111.1:c.382-43743A>T, XM_011540112.1:c.450+31658A>T, XM_011540113.1:c.450+31658A>T, XM_011540114.1:c.450+31658A>T, XM_011540115.1:c.450+31658A>T, XM_011540116.1:c.450+31658A>T, XM_011540117.1:c.450+31658A>T, XM_011540118.1:c.450+31658A>T, XM_011540119.1:c.450+31658A>T, rs56431640, rs57061879, rs61174005
A > T
SNP
No VIP available No Clinical Annotations available VA
rs4551053 NC_000005.10:g.158411534G>A, NC_000005.9:g.157838542G>A, NR_109888.1:n.-1761C>T
G > A
SNP
No VIP available No Clinical Annotations available VA
rs4784333 NC_000016.10:g.53935176C>G, NC_000016.9:g.53969088C>G, NG_012969.1:g.236214C>G, NM_001080432.2:c.1364+1067C>G, XM_011523313.1:c.1394+1067C>G, XM_011523314.1:c.1394+1067C>G, XM_011523315.1:c.1394+1067C>G, XM_011523316.1:c.1394+1067C>G, rs60006850
C > G
SNP
No VIP available CA VA
rs4791040 NC_000017.10:g.64787573T>C, NC_000017.11:g.66791455T>C, NG_012206.1:g.493648T>C, NM_002737.2:c.1854+2476T>C, XM_005257502.1:c.1854+2476T>C, XM_011524989.1:c.1596+2476T>C, XM_011524990.1:c.1854+2476T>C, rs60499689
T > C
SNP
No VIP available CA VA
rs4815273 NC_000020.10:g.2500871C>T, NC_000020.11:g.2520225C>T, NM_001282495.1:c.-347+4230G>A, rs17317258, rs61100877, rs61692925
C > T
SNP
No VIP available CA VA
rs4961 NC_000004.11:g.2906707G>T, NC_000004.12:g.2904980G>T, NG_012037.1:g.66124G>T, NM_001119.4:c.1378G>T, NM_001286645.1:c.1378G>T, NM_014189.3:c.1378G>T, NM_014190.3:c.1378G>T, NM_176801.2:c.1378G>T, NP_001110.2:p.Gly460Trp, NP_001273574.1:p.Gly460Trp, NP_054908.2:p.Gly460Trp, NP_054909.2:p.Gly460Trp, NP_789771.1:p.Gly460Trp, XM_005247933.1:c.1378G>T, XM_005247934.1:c.1378G>T, XM_005247935.1:c.1378G>T, XM_005247936.1:c.1378G>T, XM_005247937.1:c.1378G>T, XM_005247938.1:c.1378G>T, XP_005247990.1:p.Gly460Trp, XP_005247991.1:p.Gly460Trp, XP_005247992.1:p.Gly460Trp, XP_005247993.1:p.Gly460Trp, XP_005247994.1:p.Gly460Trp, XP_005247995.1:p.Gly460Trp, rs113752720, rs52823896, rs61347248
G > T
SNP
G460W
No VIP available No Clinical Annotations available VA
rs5051 NC_000001.10:g.230849872C>T, NC_000001.11:g.230714126C>T, NG_008836.1:g.5465G>A, NM_000029.3:c.-44G>A, rs16852405, rs36218427, rs3789681, rs60366145
C > T
SNP
No VIP available No Clinical Annotations available VA
rs5186 NC_000003.11:g.148459988A>C, NC_000003.12:g.148742201A>C, NG_008468.1:g.49331A>C, NM_000685.4:c.*86A>C, NM_004835.4:c.*86A>C, NM_009585.3:c.*86A>C, NM_031850.3:c.*86A>C, NM_032049.3:c.*86A>C, rs17231380, rs3192044, rs3732563, rs386597902, rs59796105
A > C
SNP
No VIP available No Clinical Annotations available VA
rs5443 NC_000012.11:g.6954875C>T, NC_000012.12:g.6845711C>T, NG_009100.1:g.10501C>T, NM_001297571.1:c.822C>T, NM_002075.3:c.825C>T, NP_001284500.1:p.Ser274=, NP_002066.1:p.Ser275=, NW_003871083.2:g.47295C>T, XM_005253679.1:c.825C>T, XM_005253680.1:c.822C>T, XM_005253681.1:c.702-6C>T, XM_005277751.1:c.825C>T, XM_005277752.1:c.822C>T, XM_005277753.1:c.702-6C>T, XM_011520953.1:c.825C>T, XM_011520954.1:c.822C>T, XM_011521027.1:c.*1818G>A, XM_011521028.1:c.*1818G>A, XM_011521029.1:c.*2036G>A, XM_011521030.1:c.*1969G>A, XP_005253736.1:p.Ser275=, XP_005253737.1:p.Ser274=, XP_005277808.1:p.Ser275=, XP_005277809.1:p.Ser274=, XP_011519255.1:p.Ser275=, XP_011519256.1:p.Ser274=, rs2230334, rs3138516, rs57419337, rs6489738
C > T
SNP
S274S
No VIP available No Clinical Annotations available VA
rs5723 NC_000016.10:g.23215466C>G, NC_000016.9:g.23226787C>G, NG_011909.1:g.37748C>G, NM_001039.3:c.1947C>G, NP_001030.2:p.Leu649=, XM_005255468.1:c.1947C>G, XM_005255469.1:c.1848C>G, XP_005255525.1:p.Leu649=, XP_005255526.1:p.Leu616=, rs2228992, rs57201603
C > G
SNP
L649L
No VIP available No Clinical Annotations available VA
rs5729 NC_000016.10:g.23216075T>A, NC_000016.9:g.23227396T>A, NG_011909.1:g.38357T>A, NM_001039.3:c.*606T>A, XM_005255468.1:c.*606T>A, XM_005255469.1:c.*606T>A, rs60508947
T > A
SNP
No VIP available No Clinical Annotations available VA
rs59172778 NC_000011.10:g.128839231A>G, NC_000011.9:g.128709126A>G, NG_009379.1:g.33143T>C, NM_000220.4:c.1070T>C, NM_153764.2:c.1013T>C, NM_153765.2:c.1064T>C, NM_153766.2:c.1013T>C, NM_153767.3:c.1013T>C, NP_000211.1:p.Met357Thr, NP_722448.1:p.Met338Thr, NP_722449.3:p.Met355Thr, NP_722450.1:p.Met338Thr, NP_722451.1:p.Met338Thr, rs62625013
A > G
SNP
M357T
No VIP available No Clinical Annotations available VA
rs6083538 NC_000020.10:g.2502740C>T, NC_000020.11:g.2522094C>T, NM_001282495.1:c.-347+2361G>A, rs17225979, rs8113879
C > T
SNP
No VIP available CA VA
rs658903 NC_000011.10:g.128858172T>A, NC_000011.9:g.128728067T>A, NG_009379.1:g.14202A>T, NM_153764.2:c.-22+9001A>T, NM_153765.2:c.30+8351A>T, NM_153766.2:c.-191-7282A>T, NM_153767.3:c.-191-7282A>T
T > A
SNP
No VIP available No Clinical Annotations available VA
rs675388 NC_000011.10:g.128838114G>A, NC_000011.9:g.128708009G>A, NG_009379.1:g.34260C>T, NM_000220.4:c.*1011C>T, NM_153764.2:c.*1011C>T, NM_153765.2:c.*1011C>T, NM_153766.2:c.*1011C>T, NM_153767.3:c.*1011C>T, rs386604882, rs58098504
G > A
SNP
No VIP available No Clinical Annotations available VA
rs689979 NC_000009.11:g.98718673T>C, NC_000009.12:g.95956391T>C, NG_034107.1:g.85774T>C, NM_001010895.2:c.1980+378T>C, NM_020207.4:c.1980+378T>C, XM_011518641.1:c.1980+378T>C, XM_011518642.1:c.1353+378T>C, XM_011518643.1:c.1980+378T>C, XM_011518644.1:c.1086+378T>C, XM_011518645.1:c.1980+378T>C, XM_011518646.1:c.1980+378T>C, XM_011518647.1:c.1980+378T>C, XM_011518648.1:c.315+378T>C, XM_011518649.1:c.27+378T>C, XM_011518650.1:c.-348+378T>C, XM_011518651.1:c.1980+378T>C, XR_929787.1:n.2368+378T>C, XR_929788.1:n.2368+378T>C, XR_929789.1:n.2563+378T>C, rs2138103
T > C
SNP
No VIP available No Clinical Annotations available VA
rs6947309 NC_000007.13:g.139035830C>T, NC_000007.14:g.139351084C>T, NG_030012.1:g.15706C>T, NM_001244584.2:c.259+5463C>T, NM_001244585.1:c.-26+10567C>T, rs61171529
C > T
SNP
No VIP available No Clinical Annotations available VA
rs7247267 NC_000019.10:g.43334601G>T, NC_000019.9:g.43838753G>T, rs60495720
G > T
SNP
No VIP available CA VA
rs7297610 NC_000012.11:g.69824024C>T, NC_000012.12:g.69430244C>T, XR_945061.1:n.-1307C>T, rs57437026
C > T
SNP
No VIP available CA VA
rs7387065 NC_000008.10:g.2903020A>G, NC_000008.11:g.3045498A>G, NM_033225.5:c.7660+6964T>C, XM_011534752.1:c.7660+6964T>C, XM_011534753.1:c.4753+6964T>C, XM_011534754.1:c.3682+6964T>C, rs61144605
A > G
SNP
No VIP available No Clinical Annotations available VA
rs75982813 NC_000018.10:g.58043776A>G, NC_000018.9:g.55711008A>G, NG_029954.1:g.4399A>G, NM_001144967.2:c.-885A>G, NM_001243960.1:c.-885A>G, NM_015277.5:c.-885A>G, XM_005266666.1:c.-885A>G, XM_006722426.2:c.-885A>G, XM_006722428.2:c.-885A>G
A > G
SNP
No VIP available CA VA
rs7706429 NC_000005.10:g.108251082A>G, NC_000005.9:g.107586783A>G, NM_001163315.2:c.1507-26854T>C, XM_005272048.1:c.1507-26854T>C, XM_005272048.3:c.1507-26854T>C, XM_005272049.1:c.1375-26854T>C, XM_011543574.1:c.1507-26854T>C, XM_011543575.1:c.1507-26854T>C, XM_011543576.1:c.1507-26854T>C, XM_011543577.1:c.1507-26854T>C, XM_011543578.1:c.1507-26854T>C, rs56492716, rs57554984, rs60099801
A > G
SNP
No VIP available CA VA
rs77876672 NC_000013.10:g.60319019C>T, NC_000013.11:g.59744885C>T, NG_032693.1:g.424101G>A, NM_001042517.1:c.3319+29304G>A, NM_001258366.1:c.3286+29304G>A, NM_001258367.1:c.3181+29304G>A, NM_001258368.1:c.3109+29304G>A, XM_006719876.1:c.2530+29304G>A, XM_011535258.1:c.3319+29304G>A, XM_011535259.1:c.3320-2329G>A, XM_011535260.1:c.3320-2332G>A, XM_011535261.1:c.3109+29304G>A, XM_011535262.1:c.2530+29304G>A, XR_941672.1:n.3481+29304G>A
C > T
SNP
No VIP available CA VA
rs7917983 NC_000010.10:g.114732882T>C, NC_000010.11:g.112973123T>C, NG_012631.1:g.27874T>C, NM_001146274.1:c.450+8499T>C, NM_001146283.1:c.381+21516T>C, NM_001146284.1:c.381+21516T>C, NM_001146285.1:c.381+21516T>C, NM_001146286.1:c.381+21516T>C, NM_001198525.1:c.381+21516T>C, NM_001198526.1:c.381+21516T>C, NM_001198527.1:c.381+21516T>C, NM_001198528.1:c.381+21516T>C, NM_001198529.1:c.381+21516T>C, NM_001198530.1:c.381+21516T>C, NM_001198531.1:c.450+8499T>C, NM_030756.4:c.381+21516T>C, XM_005270071.1:c.450+8499T>C, XM_005270072.1:c.450+8499T>C, XM_005270073.1:c.450+8499T>C, XM_005270074.1:c.450+8499T>C, XM_005270075.1:c.450+8499T>C, XM_005270076.1:c.450+8499T>C, XM_005270077.1:c.450+8499T>C, XM_005270078.1:c.450+8499T>C, XM_005270079.1:c.450+8499T>C, XM_005270080.1:c.381+21516T>C, XM_005270081.1:c.381+21516T>C, XM_005270082.1:c.450+8499T>C, XM_005270083.1:c.450+8499T>C, XM_005270084.1:c.450+8499T>C, XM_005270085.1:c.450+8499T>C, XM_005270086.1:c.381+21516T>C, XM_005270087.1:c.381+21516T>C, XM_005270088.1:c.381+21516T>C, XM_005270089.1:c.381+21516T>C, XM_005270090.1:c.381+21516T>C, XM_005270091.1:c.450+8499T>C, XM_005270091.2:c.450+8499T>C, XM_005270092.1:c.450+8499T>C, XM_005270093.1:c.450+8499T>C, XM_005270094.1:c.450+8499T>C, XM_005270095.1:c.450+8499T>C, XM_005270096.1:c.450+8499T>C, XM_005270100.1:c.450+8499T>C, XM_005270101.1:c.381+21516T>C, XM_005270102.1:c.450+8499T>C, XM_005270103.1:c.381+21516T>C, XM_005270104.1:c.381+21516T>C, XM_006717956.2:c.-10+8499T>C, XM_011540109.1:c.450+8499T>C, XM_011540110.1:c.381+21516T>C, XM_011540111.1:c.381+21516T>C, XM_011540112.1:c.450+8499T>C, XM_011540113.1:c.450+8499T>C, XM_011540114.1:c.450+8499T>C, XM_011540115.1:c.450+8499T>C, XM_011540116.1:c.450+8499T>C, XM_011540117.1:c.450+8499T>C, XM_011540118.1:c.450+8499T>C, XM_011540119.1:c.450+8499T>C, rs10509968, rs59955493
T > C
SNP
No VIP available CA VA
rs880054 NC_000012.11:g.988558C>T, NC_000012.12:g.879392C>T, NG_007984.2:g.131334C>T, NM_001184985.1:c.3612+1031C>T, NM_014823.2:c.2370+1031C>T, NM_018979.3:c.2374-181C>T, NM_213655.4:c.3867+1031C>T, XM_005253733.1:c.3613-181C>T, XM_005253734.1:c.2374-181C>T, XM_005253735.1:c.2374-181C>T, XM_005253736.1:c.2290-181C>T, XM_005253737.1:c.2287-181C>T, XM_005253738.1:c.2374-181C>T, XM_005253739.1:c.2370+1031C>T, XM_005253740.1:c.2289+1031C>T, XM_005253741.1:c.2286+1031C>T, XM_005253742.1:c.2289+1031C>T, XM_005253743.1:c.1153-181C>T, XM_006719003.1:c.2371-181C>T, XM_011520997.1:c.3613-181C>T, XM_011520998.1:c.3610-181C>T, XM_011520999.1:c.3613-181C>T, XM_011521000.1:c.3613-181C>T, XM_011521001.1:c.3613-181C>T, XM_011521002.1:c.3609+1031C>T, XM_011521003.1:c.3612+1031C>T, XM_011521004.1:c.3609+1031C>T, XM_011521005.1:c.2392-181C>T, XM_011521006.1:c.2290-181C>T, XM_011521007.1:c.2287-181C>T, XM_011521008.1:c.2289+1031C>T, XM_011521009.1:c.2286+1031C>T, rs17223434
C > T
SNP
No VIP available CA VA
rs9285669 NC_000005.10:g.148166889T>A, NC_000005.9:g.147546452T>A, NM_001001325.2:c.-1751T>A, XM_005268449.1:c.-1751T>A, rs59690933
T > A
SNP
No VIP available CA VA
rs9590353 NC_000013.10:g.96631221T>G, NC_000013.11:g.95978967T>G, NM_020121.3:c.1092+4837A>C, XM_005254066.1:c.1092+4837A>C, XM_005254067.1:c.1092+4837A>C, XM_005254068.1:c.1092+4837A>C, XM_005254069.1:c.30+4837A>C, XM_011521094.1:c.1092+4837A>C, XM_011521095.1:c.1092+4837A>C, XM_011521096.1:c.1092+4837A>C, XM_011521097.1:c.1092+4837A>C, XM_011521098.1:c.132+4837A>C, XM_011521099.1:c.30+4837A>C, XM_011521100.1:c.1092+4837A>C, XM_011521101.1:c.1092+4837A>C, XR_931617.1:n.1217+4837A>C, rs60931101
T > G
SNP
No VIP available CA VA
rs9915451 NC_000017.10:g.54433211A>G, NC_000017.11:g.56355850A>G, NM_153228.2:c.610+1804A>G, XM_005257094.1:c.670+1804A>G, XM_006721728.2:c.397+1804A>G, XM_011524425.1:c.772+1804A>G, XM_011524426.1:c.742+1804A>G, XM_011524427.1:c.709+1804A>G, XM_011524428.1:c.610+1804A>G, XM_011524429.1:c.592+1804A>G, XM_011524430.1:c.397+1804A>G, XM_011524431.1:c.397+1804A>G, XM_011524432.1:c.976+1804A>G, rs59452436
A > G
SNP
No VIP available No Clinical Annotations available VA
rs9933692 NC_000016.10:g.25946919G>A, NC_000016.9:g.25958240G>A, NM_006040.2:c.735-188693G>A
G > A
SNP
Alleles, Functions, and Amino Acid Translations are all sourced from dbSNP 147

Overview

Generic Names
  • Dihydrochlorothiazid
  • Dihydrochlorothiazide
  • Dihydrochlorothiazidum
  • Dihydrochlorurit
  • Dihydrochlorurite
  • Dihydroxychlorothiazidum
  • HCT
  • HCTZ
  • HCZ
  • Hydrochlorothiazid
  • Hydrochlorthiazide
Trade Names
  • Acuretic
  • Aldoril
  • Apresazide
  • Aquarills
  • Aquarius
  • Bremil
  • Caplaril
  • Capozide
  • Chlorosulthiadil
  • Chlorzide
  • Cidrex
  • Dichlorosal
  • Dichlorotride
  • Dichlotiazid
  • Dichlotride
  • Diclotride
  • Dicyclotride
  • Direma
  • Disalunil
  • Diu-Melusin
  • Drenol
  • Esidrex
  • Esimil
  • Fluvin
  • Hidril
  • Hidrochlortiazid
  • Hidroronol
  • Hidrotiazida
  • Hydril
  • Hydro-Aquil
  • Hydro-Diuril
  • HydroDIURIL
  • Hydrodiuretic
  • Hydropres
  • Hydrosaluric
  • Hydrothide
  • Hydrozide
  • Hypothiazid
  • Hypothiazide
  • Idrotiazide
  • Ivaugan
  • Jen-Diril
  • Lotensin Hct
  • Maschitt
  • Megadiuril
  • Microzide
  • Moduretic
  • Nefrix
  • Neo-Codema
  • Neoflumen
  • Newtolide
  • Panurin
  • Ro-Hydrazide
  • Servithiazid
  • Thiaretic
  • Thiuretic
  • Thlaretic
  • Timolide
  • Urodiazin
  • Vetidrex
  • Ziac
Brand Mixture Names

PharmGKB Accession Id

PA449899

Type(s):

Drug

Description

A thiazide diuretic often considered the prototypical member of this class. It reduces the reabsorption of electrolytes from the renal tubules. This results in increased excretion of water and electrolytes, including sodium, potassium, chloride, and magnesium. It has been used in the treatment of several disorders including edema, hypertension, diabetes insipidus, and hypoparathyroidism.

Source: Drug Bank

Indication

For the treatment of high blood pressure and management of edema.

Source: Drug Bank

Other Vocabularies

Information pulled from DrugBank has not been reviewed by PharmGKB.

Pharmacology, Interactions, and Contraindications

Mechanism of Action

Hydrochlorothiazide, a thiazide diuretic, inhibits water reabsorption in the nephron by inhibiting the sodium-chloride symporter (SLC12A3) in the distal convoluted tubule, which is responsible for 5% of total sodium reabsorption. Normally, the sodium-chloride symporter transports sodium and chloride from the lumen into the epithelial cell lining the distal convoluted tubule. The energy for this is provided by a sodium gradient established by sodium-potassium ATPases on the basolateral membrane. Once sodium has entered the cell, it is transported out into the basolateral interstitium via the sodium-potassium ATPase, causing an increase in the osmolarity of the interstitium, thereby establishing an osmotic gradient for water reabsorption. By blocking the sodium-chloride symporter, hydrochlorothiazide effectively reduces the osmotic gradient and water reabsorption throughout the nephron.Hydrochlorothiazide, a thiazide diuretic, inhibits water reabsorption in the nephron by inhibiting the sodium-chloride symporter (SLC12A3) in the distal convoluted tubule, which is responsible for 5% of total sodium reabsorption. Normally, the sodium-chloride symporter transports sodium and chloride from the lumen into the epithelial cell lining the distal convoluted tubule. The energy for this is provided by a sodium gradient established by sodium-potassium ATPases on the basolateral membrane. Once sodium has entered the cell, it is transported out into the basolateral interstitium via the sodium-potassium ATPase, causing an increase in the osmolarity of the interstitium, thereby establishing an osmotic gradient for water reabsorption. By blocking the sodium-chloride symporter, hydrochlorothiazide effectively reduces the osmotic gradient and water reabsorption throughout the nephron.

Source: Drug Bank

Pharmacology

Thiazides such as hydrochlorothiazide promote water loss from the body (diuretics). They inhibit Na +/Cl - reabsorption from the distal convoluted tubules in the kidneys. Thiazides also cause loss of potassium and an increase in serum uric acid. Thiazides are often used to treat hypertension, but their hypotensive effects are not necessarily due to their diuretic activity. Thiazides have been shown to prevent hypertension-related morbidity and mortality although the mechanism is not fully understood. Thiazides cause vasodilation by activating calcium-activated potassium channels (large conductance) in vascular smooth muscles and inhibiting various carbonic anhydrases in vascular tissue.

Source: Drug Bank

Food Interaction

Avoid alcohol.|Increase potassium intake; add a banana or orange juice; unless instructed otherwise.|Avoid excess salt/sodium unless otherwise instructed by your physician.|Do not take calcium, aluminum, magnesium or Iron supplements within 2 hours of taking this medication.|Avoid natural licorice.|Take with food.

Source: Drug Bank

Absorption, Distribution, Metabolism, Elimination & Toxicity

Biotransformation

Hydrochlorothiazide is not metabolized.

Source: Drug Bank

Protein Binding

67.9%

Source: Drug Bank

Absorption

50-60%

Source: Drug Bank

Half-Life

5.6 and 14.8 hours

Source: Drug Bank

Toxicity

The most common signs and symptoms observed are those caused by electrolyte depletion (hypokalemia, hypochloremia, hyponatremia) and dehydration resulting from excessive diuresis. If digitalis has also been administered, hypokalemia may accentuate cardiac arrhythmias. The oral LD50 of hydrochlorothiazide is greater than 10 g/kg in the mouse and rat.

Source: Drug Bank

Route of Elimination

Hydrochlorothiazide is not metabolized but is eliminated rapidly by the kidney. Hydrochlorothiazide crosses the placental but not the blood-brain barrier and is excreted in breast milk.

Source: Drug Bank

Chemical Properties

Chemical Formula

C7H8ClN3O4S2

Source: Drug Bank

Isomeric SMILES

c1c2c(cc(c1Cl)S(=O)(=O)N)S(=O)(=O)NCN2

Source: OpenEye

Canonical SMILES

NS(=O)(=O)C1=C(Cl)C=C2NCNS(=O)(=O)C2=C1

Source: Drug Bank

Average Molecular Weight

297.739

Source: Drug Bank

Monoisotopic Molecular Weight

296.964474846

Source: Drug Bank

SMILES

NS(=O)(=O)C1=C(Cl)C=C2NCNS(=O)(=O)C2=C1

Source: Drug Bank

InChI String

InChI=1S/C7H8ClN3O4S2/c8-4-1-5-7(2-6(4)16(9,12)13)17(14,15)11-3-10-5/h1-2,10-11H,3H2,(H2,9,12,13)

Source: Drug Bank

Genes that are associated with this drug in PharmGKB's database based on (1) variant annotations, (2) literature review, (3) pathways or (4) information automatically retrieved from DrugBank, depending on the "evidence" and "source" listed below.

Curated Information ?

Drug Targets

Gene Description
CA1 (source: Drug Bank)
CA12 (source: Drug Bank)
CA2 (source: Drug Bank)
CA4 (source: Drug Bank)
CA9 (source: Drug Bank)
KCNMA1 (source: Drug Bank)
SLC12A3 (source: Drug Bank)

Drug Interactions

Interaction Description
amantadine - hydrochlorothiazide The diuretic increases the adverse effects of amantadine (source: Drug Bank)
digoxin - hydrochlorothiazide Possible electrolyte variations and arrhythmias (source: Drug Bank)
digoxin - hydrochlorothiazide Possible electrolyte variations and arrhythmias (source: Drug Bank)
hydrochlorothiazide - amantadine The diuretic increases the adverse effect of amantadine (source: Drug Bank)
hydrochlorothiazide - deslanoside Possible electrolyte variations and arrhythmias (source: Drug Bank)
hydrochlorothiazide - diazoxide Significant hyperglycemic effect (source: Drug Bank)
hydrochlorothiazide - diazoxide Significant hyperglycemic effect (source: Drug Bank)
hydrochlorothiazide - digitoxin Possible electrolyte variations and arrhythmias (source: Drug Bank)
hydrochlorothiazide - digitoxin Possible electrolyte variations and arrhythmias (source: Drug Bank)
hydrochlorothiazide - digoxin Possible electrolyte variations and arrhythmias (source: Drug Bank)
hydrochlorothiazide - digoxin Possible electrolyte variations and arrhythmias (source: Drug Bank)
hydrochlorothiazide - dofetilide Increased risk of cardiotoxicity and arrhythmias (source: Drug Bank)
hydrochlorothiazide - dofetilide Increased risk of cardiotoxicity and arrhythmias (source: Drug Bank)
hydrochlorothiazide - lithium The thiazide diuretic increases serum levels of lithium (source: Drug Bank)
hydrochlorothiazide - lithium The thiazide diuretic increases serum levels of lithium (source: Drug Bank)
lithium - hydrochlorothiazide The thiazide diuretic increases serum levels of lithium (source: Drug Bank)
lithium - hydrochlorothiazide The thiazide diuretic increases serum levels of lithium (source: Drug Bank)
tenoxicam - hydrochlorothiazide Tenoxicam may antagonize the blood pressure lowering effect of Hydrochlorothiazide. Monitor for changes in the therapeutic effect of Hydrochlorothiazide if Tenoxicam is initiated, discontinued or dose changed. (source: Drug Bank)
trandolapril - hydrochlorothiazide The thiazide diuretic, Hydrochlorothiazide, may increase the hypotensive effect of Trandolapril. Hydrochlorothiazide may also increase the nephrotoxicity of Trandolapril. Monitor for postural hypotension at initiation of concomitant therapy and renal dysfunction during chronic therapy. (source: Drug Bank)
treprostinil - hydrochlorothiazide Additive hypotensive effect. Monitor antihypertensive therapy during concomitant use. (source: Drug Bank)

Curated Information ?

Relationships from National Drug File - Reference Terminology (NDF-RT)

May Treat
Contraindicated With

Publications related to hydrochlorothiazide: 53

No Dosing Guideline available No Drug Label available CA VA No VIP available No VIP available
Pharmacogenomic Genome-Wide Meta-Analysis of Blood Pressure Response to beta-Blockers in Hypertensive African Americans. Hypertension. 2016. Gong Yan, et al. PubMed
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PTPRD gene associated with blood pressure response to atenolol and resistant hypertension. Journal of hypertension. 2015. Gong Yan, et al. PubMed
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TET2 and CSMD1 genes affect SBP response to hydrochlorothiazide in never-treated essential hypertensives. Journal of hypertension. 2015. Chittani Martina, et al. PubMed
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Genome-wide association study identifies CAMKID variants involved in blood pressure response to losartan: the SOPHIA study. Pharmacogenomics. 2014. Frau Francesca, et al. PubMed
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Transethnic meta-analysis suggests genetic variation in the HEME pathway influences potassium response in patients treated with hydrochlorothiazide. The pharmacogenomics journal. 2014. Del-Aguila J L, et al. PubMed
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Alteration in fasting glucose after prolonged treatment with a thiazide diuretic. Diabetes research and clinical practice. 2014. Karnes Jason H, et al. PubMed
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Adoption of a clinical pharmacogenomics implementation program during outpatient care-initial results of the University of Chicago "1,200 Patients Project". American journal of medical genetics. Part C, Seminars in medical genetics. 2014. O'Donnell Peter H, et al. PubMed
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Hydrochlorothiazide-induced hyperuricaemia in the Pharmacogenomic Evaluation of Antihypertensive Responses (PEAR) study. Journal of internal medicine. 2014. Vandell Alexander G, et al. PubMed
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Impact of TCF7L2 single nucleotide polymorphisms on hydrochlorothiazide-induced diabetes. Pharmacogenetics and genomics. 2013. Karnes Jason H, et al. PubMed
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PROX1 Gene Variant is Associated with Fasting Glucose Change After Antihypertensive Treatment. Pharmacotherapy. 2013. Gong Yan, et al. PubMed
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Genomic Association Analysis of Common Variants Influencing Antihypertensive Response to Hydrochlorothiazide. Hypertension. 2013. Turner Stephen T, et al. PubMed
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Genome-wide association analyses suggest NELL1 influences adverse metabolic response to HCTZ in African Americans. The pharmacogenomics journal. 2013. Del-Aguila J L, et al. PubMed
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Association of variants in NEDD4L with blood pressure response and adverse cardiovascular outcomes in hypertensive patients treated with thiazide diuretics. Journal of hypertension. 2013. McDonough Caitrin W, et al. PubMed
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Atenolol Induced HDL-C Change in the Pharmacogenomic Evaluation of Antihypertensive Responses (PEAR) Study. PloS one. 2013. McDonough Caitrin W, et al. PubMed
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Hypertension Susceptibility Loci and Blood Pressure Response to Antihypertensives - Results from the Pharmacogenomic Evaluation of Antihypertensive Responses (PEAR) Study. Circulation. Cardiovascular genetics. 2012. Gong Yan, et al. PubMed
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Association of KCNJ1 variation with change in fasting glucose and new onset diabetes during HCTZ treatment. The pharmacogenomics journal. 2012. Karnes J H, et al. PubMed
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Genomic Association Analysis Identifies Multiple Loci Influencing Antihypertensive Response to an Angiotensin II Receptor Blocker. Hypertension. 2012. Turner Stephen T, et al. PubMed
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Association of chromosome 12 locus with antihypertensive response to hydrochlorothiazide may involve differential YEATS4 expression. The pharmacogenomics journal. 2012. Duarte J D, et al. PubMed
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STK39 variation predicts the ambulatory blood pressure response to losartan in hypertensive men. Hypertension research : official journal of the Japanese Society of Hypertension. 2012. Donner Kati M, et al. PubMed
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Effects of genetic variation in H3K79 methylation regulatory genes on clinical blood pressure and blood pressure response to hydrochlorothiazide. Journal of translational medicine. 2012. Duarte Julio D, et al. PubMed
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Power to identify a genetic predictor of antihypertensive drug response using different methods to measure blood pressure response. Journal of translational medicine. 2012. Turner Stephen T, et al. PubMed
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Blood Pressure Responses and Metabolic Effects of Hydrochlorothiazide and Atenolol. American journal of hypertension. 2011. Smith Steven M, et al. PubMed
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Polymorphisms, hypertension and thiazide diuretics. Pharmacogenomics. 2011. Citterio Lorena, et al. PubMed
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Genetic variation in renin predicts the effects of thiazide diuretics. European journal of clinical investigation. 2011. Huang Chin-Chou, et al. PubMed
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Association of intergenic polymorphism of organic anion transporter 1 and 3 genes with hypertension and blood pressure response to hydrochlorothiazide. American journal of hypertension. 2011. Han Yun-Feng, et al. PubMed
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A functional variant of the NEDD4L gene is associated with beneficial treatment response with beta-blockers and diuretics in hypertensive patients. Journal of hypertension. 2011. Svensson-Färbom Patrik, et al. PubMed
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Interaction of ACE and CYP11B2 genes on blood pressure response to hydrochlorothiazide in Han Chinese hypertensive patients. Clinical and experimental hypertension (New York, N.Y. : 1993). 2011. Li Yun, et al. PubMed
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Polymorphisms in genes coding for GRK2 and GRK5 and response differences in antihypertensive-treated patients. Pharmacogenetics and genomics. 2010. Lobmeyer Maximilian T, et al. PubMed
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Combination antihypertensive treatment: is initiation order important?. Journal of clinical hypertension (Greenwich, Conn.). 2010. Gums John G, et al. PubMed
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Lack of association between polymorphisms in STK39, a putative thiazide response gene, and blood pressure response to hydrochlorothiazide. Pharmacogenetics and genomics. 2010. Duarte Julio D, et al. PubMed
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Impact of abdominal obesity on incidence of adverse metabolic effects associated with antihypertensive medications. Hypertension. 2010. Cooper-DeHoff Rhonda M, et al. PubMed
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Comparison of office, ambulatory, and home blood pressure antihypertensive response to atenolol and hydrochlorthiazide. Journal of clinical hypertension (Greenwich, Conn.). 2010. Beitelshees Amber L, et al. PubMed
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Hydrochlorothiazide and atenolol combination antihypertensive therapy: effects of drug initiation order. Clinical pharmacology and therapeutics. 2009. Johnson J A, et al. PubMed
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A functional variant of NEDD4L is associated with hypertension, antihypertensive response, and orthostatic hypotension. Hypertension. 2009. Luo Fang, et al. PubMed
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Lack of correlation between thiazide-induced hyperglycemia and hypokalemia: subgroup analysis of results from the pharmacogenomic evaluation of antihypertensive responses (PEAR) study. Pharmacotherapy. 2009. Smith Steven M, et al. PubMed
No Dosing Guideline available No Drug Label available No Clinical Annotation available No Variant Annotation available No VIP available No VIP available
Kininogen gene (KNG) variation has a consistent effect on aldosterone response to antihypertensive drug therapy: the GERA study. Physiological genomics. 2009. Barbalic Maja, et al. PubMed
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Renin-angiotensin system and alpha-adducin gene polymorphisms and their relation to responses to antihypertensive drugs: results from the GENRES study. American journal of hypertension. 2009. Suonsyrjä Timo, et al. PubMed
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Genomic association analysis suggests chromosome 12 locus influencing antihypertensive response to thiazide diuretic. Hypertension. 2008. Turner Stephen T, et al. PubMed
No Dosing Guideline available No Drug Label available CA VA No VIP available No VIP available
Physiological interaction between alpha-adducin and WNK1-NEDD4L pathways on sodium-related blood pressure regulation. Hypertension. 2008. Manunta Paolo, et al. PubMed
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Polymorphisms of ACE2 gene are associated with essential hypertension and antihypertensive effects of Captopril in women. Clinical pharmacology and therapeutics. 2007. Fan X, et al. PubMed
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Effect of renin-angiotensin-aldosterone system gene polymorphisms on blood pressure response to antihypertensive treatment. Chinese medical journal. 2007. Jiang Xiao, et al. PubMed
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Hydrochlorothiazide efficacy and polymorphisms in ACE, ADD1 and GNB3 in healthy, male volunteers. European journal of clinical pharmacology. 2006. Vormfelde Stefan Viktor, et al. PubMed
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WNK1 kinase polymorphism and blood pressure response to a thiazide diuretic. Hypertension. 2005. Turner Stephen T, et al. PubMed
No Dosing Guideline available No Drug Label available No Clinical Annotation available No Variant Annotation available No VIP available No VIP available
A multilocus approach to the antihypertensive pharmacogenetics of hydrochlorothiazide. Pharmacogenetics and genomics. 2005. Maitland-van der Zee Anke-Hilse, et al. PubMed
No Dosing Guideline available No Drug Label available No Clinical Annotation available No Variant Annotation available No VIP available No VIP available
The thiazide-sensitive Na(+)-Cl(-) cotransporter gene, C1784T, and adrenergic receptor-beta3 gene, T727C, may be gene polymorphisms susceptible to the antihypertensive effect of thiazide diuretics. Hypertension research : official journal of the Japanese Society of Hypertension. 2004. Matayoshi Tetsutaro, et al. PubMed
No Dosing Guideline available No Drug Label available No Clinical Annotation available VA No VIP available No VIP available
Multilocus effects of the renin-angiotensin-aldosterone system genes on blood pressure response to a thiazide diuretic. The pharmacogenomics journal. 2004. Frazier L, et al. PubMed
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Effects of endothelial nitric oxide synthase, alpha-adducin, and other candidate gene polymorphisms on blood pressure response to hydrochlorothiazide. American journal of hypertension. 2003. Turner Stephen T, et al. PubMed
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ACE and alpha-adducin polymorphism as markers of individual response to diuretic therapy. Hypertension. 2003. Sciarrone Maria Teresa, et al. PubMed
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Interacting effects of gender and genotype on blood pressure response to hydrochlorothiazide. Kidney international. 2002. Schwartz Gary L, et al. PubMed
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alpha-Adducin 460Trp allele is associated with erythrocyte Na transport rate in North Sardinian primary hypertensives. Hypertension. 2002. Glorioso Nicola, et al. PubMed
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C825T polymorphism of the G protein beta(3)-subunit and antihypertensive response to a thiazide diuretic. Hypertension. 2001. Turner S T, et al. PubMed
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The role of alpha-adducin polymorphism in blood pressure and sodium handling regulation may not be excluded by a negative association study. Hypertension. 1999. Glorioso N, et al. PubMed
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Polymorphisms of alpha-adducin and salt sensitivity in patients with essential hypertension. Lancet. 1997. Cusi D, et al. PubMed

LinkOuts

Web Resource:
Wikipedia
National Drug Code Directory:
0378-3603-01
DrugBank:
DB00999
KEGG Drug:
D00340
PubChem Compound:
3639
PubChem Substance:
7847406
Drugs Product Database (DPD):
2247386
BindingDB:
13076
Therapeutic Targets Database:
DAP000750
FDA Drug Label at DailyMed:
091691f1-260b-4ae3-9484-a945a905fffd

Clinical Trials

These are trials that mention hydrochlorothiazide and are related to either pharmacogenetics or pharmacogenomics.

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Sources for PharmGKB drug information: DrugBank, PubChem.